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Anesthesia Machine Gas Supply Systems, Cylinders and Pipelines  

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Title: Anesthesia Machine Gas Supply Systems, Cylinders and Pipelines  


1
Anesthesia MachineGas Supply Systems,
Cylinders and Pipelines  
  • Presented by Gil Soto C.R.N.A

2
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3
  • Regulations are legal mandates
  • Standards are accepted methods of practice, they
    are voluntary standards may become basis for or
    part of regulations leading to laws

4
Medical Gas Cylinders
  • Regulatory Agencies
  • FDA-Food drug Administration- regulates medical
    devices enacted the safe medical device act
    1990
  • Report of serious injury or death to FDA. Gave
    FDA subpoena power
  • Gave authority to levy civil penalties
  • Tracking mechanism for notification
  • FDA can recall without public hearings, issue
    stop shipment orders

5
  • Regulatory Agencies
  • DOT-Department of Transportation Regulates
    design, performance, labeling, testing,
    transportation, filling and storage, construction
    of medical gas cylinders The United States
    Department of Transportation (DOT) is a federal
    Cabinet department of the United States
    government concerned with transportation. It was
    established by an act of Congress on October 15,
    1966 and began operation on April 1, 1967. It is
    administered by the United States Secretary of
    Transportation.
  • Its mission is to "Serve the United States
    by ensuring a fast, safe, efficient,
    accessible and convenient transportation system
    that meets our vital national interests.

6
  • Regulatory Agencies
  • OSHA-Occupational Safety and Health
    Administration Instituted as part of the
    occupational safety and health act of 1970.
  • NIOSH- National Institute for occupational safety
    and health writes the criteria used by OSHA
    Regulations intended to provide a safe working
    environment for employees-Scavenging of gases,
    Universal precautions- Employer reduces risk
    provides goggles, writes procedures.
  • Can institute civil penalties for non compliance

7
  • Voluntary Standards
  • NFPA-National Fire Protection Agency
  • Writes standards for prevention, detection and
    suppression of fires
  • NFPA 99- Standard for health care facilities
  • Updated every 3 years
  • Governs anesthetizing locations, emergency power
    supplies, electrical, medical gas pipeline
    systems and hyperbaric oxygen systems

8
  • Voluntary Standards
  • Compressed Gas Association ( CGA) writes
    standards for safe practice in using compressed
    gas cylinders

9
  • Voluntary Standards
  • American National Standards Institute (ANSI)-
    ANSI committee Z-79 for Anesthesia and
    Respiratory Therapy. Writes standards for
    humidifiers, reservoir bags, ventilators, ETTs
    and anesthesia machines.

10
  • Z-79.9 standards Anesthesia machines
  • Legible visible dials and gauges wall and
    cylinder, fail safe mechanisms, vaporizer lock
    out exclusion, PISS DISS, oxygen pressure
    regulators, O2 oxygen flush vales, single flow
    meter knob for each gas, 15/22mm connections to
    machines

11
  • Voluntary Standard
  • American Society for Testing and Materials (ASTM)
  • Handles most standards affecting anesthesia
  • ASTM F1161-88 Specs for minimum performance
    safety requirements for components and systems of
    anesthesia machines
  • Components of standards Pre-use checklist,
    Concentration calibrated vaporizers, O2 analyzer,
    alarms enabled by the master switch, breathing
    system pressure monitoring, volume monitoring ,
    capnometry, alarm hierarchy ( prioritized by
    severity of condition)

12
  • Other standard agencies
  • JCAHO- Joint accreditation of Health Care
    Organizations
  • AANA- American Association of Nurse Anesthetist-
    Writes guidelines for the practice of Nurse
    Anesthesia
  • Centers for disease control (CDC) Recommendations
    for the prevention of infectious diseases.

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15
  • E cylinder- Oxygen Color Green, PSI- 1900-2200,
    Volume 660 liters, Physical state GAS, PISS- 2-5
  • E cylinder- N2O, PSI 745, Volume liters 1590,
    Physical State Liquid, PISS 3-5

16
  • Gases that exist as a gas at room temp, oxygen
    drop in cylinder volume is proportionate to a
    drop in cylinder pressure
  • Gases that exist as a liquid at room temp, N20,
    Cylinder pressure remains constant until all
    agent in liquid phase enters the gas phase,
    pressure in N20 cylinder will remain constant
    until 75 of cylinder is exhausted or 400Liters
    remain.

17
Medical Gas Cylinders
  • Medical Gas Cylinders
  • Cylinder
  • Valve
  • Pressure Relief Device
  • Conical depression

18
  • Large cylinders E-Cylinders

19
Physics of Cylinders
  • Adiabatic compression- Fire hazard- Recompression
    of high pressure gas in the cylinder yoke, when
    cracking open, heats up to 1000f can ignite dust,
    grease , oil
  • Adiabatic expansion ( Joule-Thompson effect-
    Icing over cylinder, due to expansion of high
    pressure gas to low pressure atmosphere through
    leaks from improper seals of cylinder to yoke or
    leaks around the valve stem

20
  • There are a variety of tests that may be
    performed on various cylinders. Some of the most
    common types of tests are hydrostatic test, burst
    test, tensile strength, Charpy impact test and
    pressure cycling.
  • Cylinders are tested every five years. Over
    pressuring of cylinder _at_ 1.66 Xs normal. Ex O2 E
    cylinder 2200psi x 1.66 3154psi

21
  • A hydrostatic test is the normal way in which a
    gas pressure vessel such as a gas cylinder or a
    boiler is checked for leaks or flaws. Testing is
    very important because such containers can
    explode if they fail when containing compressed
    gas. Hydrostatic testing is also a way in which
    leaks can be found in lower pressure vessels such
    as pipelines and plumbing.
  • The vessel is filled with a nearly incompressible
    liquid - usually water or oil - and examined for
    leaks or permanent changes in shape. The test
    pressure is always considerably more than the
    operating pressure to give a margin for safety,
    typically 150 of the operating pressure. Water
    is commonly used because it is almost
    incompressible, so will only expand by a very
    small amount should the vessel split.
  • If high pressure gas were used, then the gas
    would expand to perhaps several hundred times its
    compressed volume in an explosion, with the risk
    of damage or injury. This is the risk which the
    testing is intended to mitigate.

22
  • Most countries have legislation or building code
    that requires pressure vessels to be regularly
    tested, for example every two years (with a
    visual inspection annually) for high pressure gas
    cylinders and every five or ten years for lower
    pressure ones such as used in fire extinguishers.
    Gas cylinders which fail are normally destroyed
    as part of the testing protocol to avoid the
    dangers inherent in them being subsequently used.
  • Theses common gas cylinders have the following
    requirements
  • DOT-3AL gas cylinders must be tested every 5
    years and have an unlimited life.

23
Cylinders
  • Cylinders (tanks) made out of steel (various
    alloys added for strength)
  • Aluminum (recent years) useful in MRI
  • If cylinder is unsecured, place it on its side
    (never stand upright w/o support)
  • Explosion/fires with Aluminum O2 regulators
    (Brass O2 regulators OK) Adiabatic Compression

24
Valve (p 5 D D)
  • Tanks are filled discharged via valve (spindle
    valve) attached to neck
  • Valve most fragile part (bronze or brass)
    protect during transport
  • Valve consists of
  • body
  • port (where the gas exits)
  • stem (shaft) closes valve by sealing against the
    seat
  • handle or hand wheel (to open the valve)
  • safety relief device
  • conical depression (opposite the port, it accepts
    the tip of the screw which secures the cylinder
    in the yoke)
  • PISS pins (Pin Index Safety System)

25
Pressure Relief Device
  • (Also known as safety release device) vents the
    contents of the cylinder to atmosphere if
    pressure increases too much
  • Types
  • Rupture Disc when predetermined pressure is
    reached from improper filling, the disc ruptures
    contents dcd (air, CO2, He, N2O, O2)
  • Fusible Plug thermally operated .Metal alloy,
    has low melting point, high pressures caused by
    high temps 212F- will cause venting When pressure
    increases from high temp, fusible material turns
    soft extrudes from holder
  • (N2, air)

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Pressure Relief Device
  • Combination Ruptured Disc/Fusible plug Found on
    O2, Air, N20, Nitrogen, Helium, and mixture
    agents Helium-Oxygen. High temps of 165F,
    responds to high temp and high pressure.

28
Pressure Relief Valve
  • Spring loaded device designed to re close
    prevent discharge of cylinder contents after
    normal pressures are restored
  • Set pressure is marked on valve
  • (Air, He, O2, N2, CO2)
  • More prone to leakage than rupture discs or
    fusible plugs

29
Conical Depression
  • Placed above the safety relief device on E
    tanks
  • Receives the retaining screw of the yoke
  • DO NOT CONFUSE WITH SAFETY RELIEF DEVICE!!!!
  • If retaining screw is tightened into safety
    relief device, the device will be damaged the
    contents will escape

30
More Pictures
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32
Medical Gas Cylinders
  • Medical Gas Cylinders
  • Noninterchangeable Safety Systems
  • Pin Index Safety System
  • Diameter Index Safety System
  • Cylinder Sizes and Contents
  • Physics of medical gas cylinders

33
PISS
  • Each type of gas cylinder has a specific
    arrangement of protruding pins on the yoke hanger
    that must seat in the matching depressions on the
    cylinder head
  • O2 (piss 2-5)
  • N2O (piss 3-5)
  • Air (piss 1-5)

34
DISS
  • series of increasing and decreasing diameters in
    the components of the connections
  • specific diameters act in a key-like fashion, so
    the fittings within the gas service "family"
    (suction evacuation included) will connect only
    with their own "family members"

35
DISS
36
Cylinder Sizes
  • Gas Color Pressure Capacity (E) Capacity (G)
    State
  • O2 green 2,000 660 L
    5,300 L gas
  • N2O blue 745 1,590 L
    13,800 L gasliquid (below 98F)
  • Air yellow 2,000 625 L
    5,050 L gas
  • CO2 gray 838 1,590 L
    12,300 L gasliquid (below 88F)
  • He brown 1,600 500 L
    4,000 L gas

37
Contents Pressure Physics
  • Non-liquefied gas
  • As content is released, pressure decreases
    proportionally (air, O2)
  • Liquefied gas
  • Pressure depends on vapor pressure of liquid
  • Pressure is not an indicator of amount of gas
    remaining as long contents are partly in liquid
    phase
  • Pressure remains constant until liquid is
    evaporated (N2O)

38
N2O vs. O2
  • O2 cylinders are filled to a gauge pressure of
    2000 pounds per square inch (psig)
  • N2O cylinders are filled to a gauge pressure of
    750 psig.
  • A full "E" cylinder contains 660 L of O2
  • A full "G" cylinder contains 5,300 L of O2
  • The gauge pressure on an O2 cylinder will
    decrease in a manner proportional to the amount
    of gas in the cylinder.
  • Example a gauge pressure of 1000 psi on a "G"
    cylinder of O2 indicates that it contains about
    2,650 L
  • (5,300 L divided by 2 2,650 L)

39
Medical Gas Cylinders
  • Testing and Inspection
  • Filling
  • Color coding
  • Markings
  • Labeling
  • Tags

40
Testing Cylinders
  • Must be inspected Q 5yr (10yr with permit)
  • Month Yr permanently stamped on tank
  • External/internal visual check for corrosion and
    evidence of impact or distortion
  • Leak-tested by increasing their service pressure
    by 1.66 times
  • Service pressure max press to which the cylinder
    may be filled at 70 F (21 C)

41
Filling Tanks
  • The pressure in a filled cylinder at 70F (21C)
    may not exceed the service pressure marked
  • Exception non-liquefied, nonflammable gases (O2,
    He, CO2/O2 mixtures, He-O2 mixtures) are allowed
    an extra 10 beyond service pressure
  • For gases other than N2O CO2, the pressure at
    130F (55C) may not exceed 1.25 times service
    pressure

42
Color Coding
  • US and International colors
  • Color at least on top shoulder of tank
  • Color should not be used as the primary means for
    ID d/t tone variations, changes in paint
    pigments, lighting effects, different color
    perception by personnel

43
Markings
  • DOT and TC( Transport Canada) require specific
    markings permanently stamped on shoulder of tank
  • First number type of material tank is made of
  • Next service pressure in PSI
  • Then serial number symbol of purchaser, user
    or manufacturer
  • Initial qualifying test date and retest date
  • If plus () sign, can add 10 service press.

44
Labeling (most accurate ID)
  • Label on side or shoulder (do not cover permanent
    markings)
  • Diamond-shaped figure denotes hazard class
  • Oxidizer (yellow)
  • Non-flammable (green)
  • Flammable (red)

45
Labeling
  • Signal word (what if gas is released)
  • Danger immediate hazard
  • Warning less than immediate hazard
  • Caution no immediate hazard

46
Tags
  • Primarily a means of denoting the AMOUNT of
    cylinder contents and NOT an ID device
  • Full
  • In Use
  • Empty

47
Medical Gas Cylinders
  • General Safety Considerations
  • Safety when using Medical Gas Cylinders
  • Dangers and Hazards of Gas Cylinders
  • Transfilling Medical Gas Cylinders
  • Medical Gas Cylinder Hazards

48
General Safety Considerations
  • Handle only by trained personnel
  • Valves, regulators, gauges fittings should not
    come in contact with oil, greases, lubricants,
    rubber or combustible substance
  • Never exceed Temp of 125F (52C)
  • Avoid extremes of cold
  • Keep connections tight

49
General Safety Considerations
  • Discharge port of press relief valve must not be
    obstructed
  • Do not use adapters to change outlet size
  • Valve should be kept closed except when tank is
    in use
  • Do not alter markings, labels, tags
  • Keep away from electricity

50
Safety
  • Protective cover should be removed before fitting
    tank to yoke
  • A sealing washer (gasket) should be used with a
    small cylinder valve to fit over the port
  • If more than washer (gasket) is used, the pins in
    the yoke may not extrude far enough to engage the
    mating holes and the PISS wont work properly
    (leak)

51
Safety
  • A cylinder valve should ALWAYS be opened SLOWLY
  • If gas passes quickly into the space between the
    valve the yoke, the rapid recompression will
    generate large amount of heat. This is an
    ADIABATIC PROCESS (heat is neither lost nor
    gained from environment). Particles of dust,
    grease present in this space may be ignited by
    heat, causing a flash fire or explosion

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Transfilling (transfer of gas from one cylinder
to another)
  • Best done by gas manufacturer/distributor
  • May adversely affect purity
  • Going from large to small tank, recompression of
    gas in small tank may cause increase temp to
    ignite combustible material
  • Wrong gas can be added to cylinder

54
Cylinder Hazards
  • Incorrect tank (despite PISS)
  • Incorrect Contents
  • Incorrect Valves
  • Wrong color
  • Wrong label
  • Inoperable/damaged valves
  • Suffocation

55
Cylinder Hazards
  • Fires
  • Explosions (rapid escape of contents or rocketing
    of tank)
  • Contamination
  • Theft of N2O (substance abuse)
  • Overfilled
  • Thermal injury (frostbite reported with
    recreational use of N2O)

56
Medical Gas Pipelines
  • Standards
  • Pipeline Components
  • Gas Supply
  • Piping systems
  • Valves
  • Alarms
  • Gauges
  • Hoses and Connections

57
Pipeline Standards
  • The National Fire Protection Association (NFPA)
  • The Compressed Gas Association (CGA)
  • The Canadian Standard Association (CSA)
  • The International Standard Assoc (ISO)
  • JCAHO monitors compliance w/ standards
  • Failure to adhere to regulations is widespread

58
Pipeline Components
  • Central Supply
  • Piping extending to anesthetizing locations
  • Terminal units (point where user makes
    connections and disconnections)
  • Hoses from terminal units to anesthesia machine

59
Gas Supply
  • O2 stored as
  • Liquid at low pressure (large Hospitals)
  • Compressed gas in G or H cylinders (manifolded)
  • N2O usually stored as
  • Manifolded cylinders (most common)
  • Liquid at low pressure

60
Gas Supply
  • Medical Air
  • Air for breathing (different from gas-powered
    devices) supplied from
  • manifolded cylinders (a proportioning device that
    mixes gas from O2 and N2 cylinders
  • Motor-driven compressors (less clean and dry but
    less expensive when large volume needed)
  • Majority of piped air systems employs 2 or more
    compressors that operate alternatively or
    simultaneously, depending on demand

61
Gas Supply
  • Central Nitrogen (N2) consists of
  • manifolded high-pressure cylinders or
  • cryogenic liquid N2 containers
  • CO2 (laparoscopy) piped in high-pressure cylinder

62
Piping Systems
  • Main lines pipes connecting the source to risers
    or branch lines or both
  • Risers (vertical) pipes connecting the main line
    with branch lines on various levels of the
    facility
  • Branch (lateral) pipes that service a room or
    group of rooms on same level of facility

63
Pressure Relief Valves
  • Each central supply system has a press relief
    valve set 50 above normal press
  • Downstream of the line regulator(s) and
  • Upstream of shutoff valve
  • Prevents buildup of pressure if a shutoff valve
    is closed
  • The press relief valve closes automatically when
    excess pressure is relieved

64
Shutoff Valves
  • Permit isolation of specific areas in case of
    problem or if maintenance, repair, testing is
    needed
  • No need to switch off entire Central supply
  • Two types
  • Manual must be visible accessible
  • Service authorized personnel

65
Manual Shutoff Valves(pull a quarter turn)
66
ALARMS
  • Master Alarm System monitors central supply and
    pressure in the main line for all medical gases
  • Area Alarm System provides audible and visual
    signals to specific locations
  • OR, PACU, ICU have individual area alarms to
    indicate if increases or decreases of pressure of
    20 of normal operating pressure take place

67
Gauges
  • A pressure gauge must be installed in the main
    line adjacent to the actuating switch for the
    main supply line pressure alarm
  • A pressure gauge must be present in each line
    being monitored at each area alarm panel

68
Medical Gas Pipelines
  • New systems, testing and verification
  • Pipeline system problems
  • Pressure
  • Leaks
  • Alarms
  • Contamination
  • Fire
  • Reserve
  • Abuse

69
New systems, testing and verification
  • Blow Down before installation of terminal units,
    the lines must be blown clear using oil-free dry
    nitrogen
  • Initial Press Test after terminal unit
    installation, each section of piping system must
    be subjected to a test pressure of 1.5 times
    working pressure to check leaks
  • Standing Press Test entire system undergoes 24hr
    test at pressure 20 higher than standard
  • Piping Purge purging on each outlet until no
    discoloration of white cloth held over outlet
  • Cross Connection Test one gas system at a time

70
Pipeline Problems
  • Inadequate pressure (most common reported)
  • Sources
  • Damage during construction projects
  • FIRES
  • Car accidents
  • Theft of N2O tanks
  • Environmental (earthquakes, lightning)
  • Depletion of central supply
  • Human error (accidental closure of shutoff valve)
  • Obstruction (debris following installation)
  • Kinking, leak, obstruction of a hose

71
Contamination
  • Particulate Foreign material
  • Gaseous Inlet of air compressor location
  • Water can damage equipment, be a source for
    bacteria, can freeze and occlude pipes
  • Bacterial Piped medical gases are not sterile.

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The End
  • jgonzale_at_fiu.edu
  • http//www.virtual-anaesthesia-textbook.com/
  • R R Board Reviews 2003- Equipment P. 2-3.
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